Studying the Effect of Magnetron Copper Deposition on the Surface Topography of Biodegradable Antibacterial Coating.

Q3 Biochemistry, Genetics and Molecular Biology Avicenna journal of medical biotechnology Pub Date : 2024-07-01 DOI:10.18502/ajmb.v16i3.15743
Maratuly Bauyrzhan, Bagdat Nurlanovich Azamatov, Alexey Vladimirovich Jes
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Abstract

Background: The surface properties of the materials used significantly influence the success and longevity of medical implants. Increasing surface roughness promotes osteoblast activity and osseointegration, while biodegradable materials such as copper have shown potential for antimicrobial applications. However, the effect of coating parameters on surface topography is not well investigated.

Methods: Sputtering of copper was performed using EPOS-PVD-440 system (Zeleno-grad, Russia). The samples were examined by Scanning Electron Microscopy (SEM) with subsequent image processing in Mountains software (Digital Surf). Antibacterial efficacy was evaluated against Staphylococcus aureus by measuring the zone of inhibition. Additionally, copper ion release was monitored over time to assess its correlation with changes in surface topography.

Results: Higher sputtering currents increased surface roughness and particle size, with a significant release of copper ions within the first 24 hr of immersion. Samples sputtered at higher currents exhibited coarser grain structures. The release of copper ions in the simulated biological environment led to further changes in surface topography, highlighting the critical influence of sputtering parameters on coating properties.

Conclusion: Optimizing magnetron copper deposition parameters enhances the surface topography and antibacterial effectiveness of biodegradable coatings on implants.

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研究磁控管沉铜对生物降解抗菌涂层表面形貌的影响
背景:所用材料的表面特性对医疗植入物的成功率和使用寿命有很大影响。增加表面粗糙度可促进成骨细胞活性和骨结合,而铜等可生物降解材料则具有抗菌应用潜力。然而,涂层参数对表面形貌的影响还没有得到很好的研究:方法:使用 EPOS-PVD-440 系统(俄罗斯 Zeleno-grad)对铜进行溅射。样品通过扫描电子显微镜(SEM)进行检测,随后在 Mountains 软件(Digital Surf)中进行图像处理。通过测量抑菌区来评估对金黄色葡萄球菌的抗菌效果。此外,随着时间的推移,还对铜离子的释放进行了监测,以评估其与表面形貌变化的相关性:结果:较高的溅射电流增加了表面粗糙度和颗粒大小,铜离子在浸泡的头 24 小时内大量释放。以更大电流溅射的样品显示出更粗的晶粒结构。铜离子在模拟生物环境中的释放进一步改变了表面形貌,凸显了溅射参数对涂层性能的重要影响:结论:优化磁控管铜沉积参数可提高植入物上可生物降解涂层的表面形貌和抗菌效果。
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来源期刊
Avicenna journal of medical biotechnology
Avicenna journal of medical biotechnology Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
2.90
自引率
0.00%
发文量
43
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